CN110750827A - Progress management method based on BIM - Google Patents

Abstract

The invention discloses a progress management method based on BIM, and particularly relates to the field of BIM, wherein the progress management method comprises the following specific management steps: the method comprises the following steps: building three-dimensional models of a building, a structure and an installation in a revit modeling software, and integrating the built three-dimensional models into a complete BIM model; step two: after the models are integrated, the complete BIM model is imported into a BIM progress management platform, the models are displayed in a light weight mode, and data are stored in a tabulated mode to form a database; step three: and the schedule manager draws up a schedule through the project database data. According to the invention, a comprehensive and efficient BIM progress management platform is established in a targeted manner, so that the practical problems of management confusion, important information loss, overdue and over-budget, rework and the like in the conventional progress management are solved; the problems of timeliness, authenticity and transparency of the communication of each ginseng side are solved; the problem that the degree of coincidence between ideal planning and actual construction is not expected is solved.

Description

Progress management method based on BIM

Technical Field

The invention relates to the technical field of BIM, in particular to a progress management method based on BIM.

Background

The BIM technology in China starts late, and more people begin to pay attention to the BIM technology and BIM related application in recent years with the continuous development of the building industry in China in new environment. Research on progress management of BIM has a tendency of hundreds of barge disputes in domestic scope, but does not reach a milestone node, and all people are accumulated continuously in the development river of technology, innovate continuously and prepare for thick and thin distribution. More and more projects are now being scaled towards medium and large projects, which are becoming more and more complex and demanding on the skill and level of management of project schedule managers. For large or even ultra-large projects, the traditional progress management method cannot achieve comprehensive management work, even if software related to progress management, such as project software, is large in planning aspect, has no way to deeply control progress, is poor in follow-up performance, does not have systematic analysis on the work complexity and the technology of the building engineering, and cannot correctly guide the development of the plan.

The traditional progress management has the defects that: due to the lack of a building visualization model, the building progress prediction cannot be intuitively reflected, the deviation and the error cannot be found in time, more uncertain factors exist, the management and control efficiency is low, and the management of the progress of the super-large-scale building is not facilitated; the plan and the actual schedule are inconsistent and disjointed due to various uncertain factors, the project schedule management only by drawing a crosswalk graph is the most basic and laggard management method, managers may have rich experience to consider the construction schedule globally, but each person has limited energy, a lot of key information is ignored, the overall analysis and consideration on resources, cost and engineering quantity are lacked, the fire-fighting type working normality is caused, the control efficiency is low after the fact, and the fault tolerance rate is very low. More managments are rejected outside the building industry because of some errors, and talent loss is serious; the consistency of the finally built building and the ideal planning cannot be controlled, a poor result is obtained, the progress, quality management and cost management are often mutually limited, various plans are made only from a progress target, and the planning and reality cannot reach a higher unified degree due to certain limitations; each participating unit lacks unified management and unified coordination, and the task completion is higher than all, so that the communication is not timely, comprehensive and objective, and the management is easy to be disconnected; traditional progress management has high requirements on experience and capacity of managers, although the reuse talents are the theorem of invariance to the ancient times, too many uncertain factors exist in the progress management which cannot be unified, not everyone in a project has global ideas, and problems existing at ordinary times can be found only by means of periodic meetings and quality detection of the project basically, some problems are difficult to form paper forms to be retained, and the problems are always problems or become new problems.

Before a mature BIM integrated platform does not exist, progress management can be carried out in a local area network and wide area network data management mode, the method is more in time consumption and large in personnel investment, management personnel need to have a certain foundation for data management, a large amount of training needs to be carried out on related personnel of each party of a project, the acceptance degree cannot be evaluated, and the method is determined according to specific conditions.

Disclosure of Invention

In order to overcome the above defects in the prior art, embodiments of the present invention provide a BIM-based progress management method, which solves the practical problems of management confusion, important information loss, overdue and over-budget, rework, and the like in the current traditional progress management by establishing a comprehensive and efficient BIM progress management platform, and can effectively determine the validity and make changes according to the situation.

In order to achieve the purpose, the invention provides the following technical scheme: a progress management method based on BIM comprises the following specific management steps:

the method comprises the following steps: building three-dimensional models of a building, a structure and an installation in a revit modeling software, and integrating the built three-dimensional models into a complete BIM model;

step two: after the models are integrated, the complete BIM model is imported into a BIM progress management platform, the models are displayed in a light weight mode, and data are stored in a tabulated mode to form a database;

step three: a progress manager draws up a progress plan through project database data, all traces are left in the soft armor in the process, and a progress plan 4D model is generated after a work plan is confirmed;

step four: problems found in actual construction need a project manager to arrange personnel specially responsible for problem recording to perform daily information acquisition, information is uniformly updated every day, and a BIM progress management platform automatically informs all parties of the responsible persons to check and verify in time;

step five: the BIM progress management platform comprises the necessary functions of time-related front edge, cross road map comparison and banana curve deviation analysis, corresponding analysis results can be obtained by simple condition confirmation, the analysis results are mainly time, one surface is compared, cost information and actual construction conditions are input into the BIM progress management platform, and a comprehensive analysis report is issued;

step six: through the advance progress simulation of the BIM progress management platform, when the progress plan is adjusted, a threshold value is set, the change degree is adjusted through the follow-up detection of the system, different solution proposals are generated inside and outside the threshold value, the proposals are adjusted through several aspects of time, cost and manpower, relevant responsible persons are automatically reported, and the processing is carried out in time.

In a preferred embodiment, the initial accuracy of the model constructed in the first step is LOD 200.

In a preferred embodiment, the integrated BIM model accuracy of the first step is optimized to LOD350-LOD 400.

In a preferred embodiment, the lightweight model of step two is used for showing real-time use, and the change of data controls the real-time change of the model.

In a preferred embodiment, the step four adopts double-person simultaneous reverse recording, that is, two workers collect the information at the same time according to opposite inspection orders, and finally gather the information, the same similar information is unconditionally retained, and the information is subjected to joint review and then is discussed whether the information is retained or not.

In a preferred embodiment, after the comprehensive analysis report is issued, the feedback is performed in an online or offline meeting mode, and the solution is discussed together with each participant, so as to solve the problem scientifically.

In a preferred embodiment, the BIM progress management platform includes an input terminal, a lightweight module, an information storage module, an information processing module and an information display module, wherein an output end of the input terminal is connected to an input end of the lightweight module, an output end of the lightweight module is connected to an input end of the information storage module, an output end of the information storage module is connected to an input end of the information processing module, and an output end of the information processing module is connected to an input end of the information display module.

In a preferred embodiment, the information processing module comprises a 4D model unit, a communication unit and a data analysis unit;

the 4D model unit is used for generating a progress plan 4D model in the step 3;

the communication unit is used for informing all the responsible persons in the fourth step and automatically reporting the related responsible persons in the sixth step, and a signal receiving end of the communication unit is a mobile phone or a computer of all the responsible persons and the related responsible persons;

and the data analysis unit is used for analyzing the deviation of the function information related to the time in the step five.

The invention has the technical effects and advantages that:

1. the progress management is carried out through the BIM technology, the progress plan 4D model generated by the 4D model unit is displayed for constructors, the whole process is public and transparent, the change information is broadcasted in real time, and important decisions are notified in real time; the BIM progress management platform automatically informs all the responsible parties, checks and audits the responsible parties in time, and connects each worker in a construction site, and workers in different levels have different access rights, modification rights and speaking rights; reasonably listening to each appeal, and timely processing the progress hidden danger difficult to find in the communication coordination; the intelligent data processing technology ensures that managers do not need to walk in various software, the integration of progress management comprises the integration of software use, and the information transmission and data processing modes are more uniform; the value of progress management is more intuitively reflected by multi-party interconnection, unnecessary field investment of personnel of each party is reduced, and core force is concentrated on links needing processing more;

2. the invention establishes a comprehensive and efficient BIM progress management platform in a targeted manner, and solves the practical problems of management confusion, important information loss, overdue and over-budget, rework and the like in the current traditional progress management; the problems of timeliness, authenticity and transparency of the communication of each ginseng side are solved; the problem that the degree of coincidence between ideal planning and actual construction is not expected is solved.

Drawings

FIG. 1 is an overall flow chart of the present invention.

FIG. 2 is a block diagram of a BIM progress management platform according to the present invention.

FIG. 3 is a block diagram of an information processing module according to the present invention.

The reference signs are: the system comprises an input terminal 1, a lightweight module 2, an information storage module 3, an information processing module 4, a 414D model unit, a 42 communication unit, a 43 data analysis unit and an information display module 5.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a progress management method based on BIM (building information modeling), as shown in figures 1-3, the concrete management steps are as follows:

the method comprises the following steps: building three large-class three-dimensional models of buildings, structures and installations in the revit modeling software, integrating the built three-dimensional models into a complete BIM model with the initial-stage precision of LOD200, and supplementing and optimizing the precision of the integrated BIM model to LOD350-LOD 400;

step two: after the models are integrated, the complete BIM model is imported into a BIM progress management platform, the models are displayed in a light weight mode, and data are stored in a tabulated mode to form a database;

the lightweight model is used for displaying and using in real time, the change of data controls the real-time change of the model, the whole process can be public and transparent, the change information can be broadcasted in real time, and important decisions can be informed in real time;

step three: a progress manager draws up a progress plan through project database data, all traces are left in the soft armor in the process, and a progress plan 4D model is generated after a work plan is confirmed;

step four: problems found in actual construction need a project manager to arrange personnel specially responsible for problem recording to acquire daily information, update information uniformly every day, reasonably listen to demands of all parties, timely process progress hidden dangers difficult to find in communication coordination, and a BIM progress management platform automatically informs all the parties of the responsible parties, checks and verifies the information timely, connects each worker in a construction site, and adopts double simultaneous reverse recording, namely two workers collect and finally gather information according to opposite checking orders at the same time, the same similar information is unconditionally kept, and the information is found in a single-side manner and is discussed and whether the information is kept or not after being reviewed together;

step five: the BIM progress management platform comprises a front edge related to time, a cross road map comparison function and a necessary function of banana curve deviation analysis, corresponding analysis results can be obtained through simple condition confirmation, the analysis results are mainly time, one side is compared, cost information and actual construction conditions are input into the BIM progress management platform, a comprehensive analysis report is provided, multiple sides are interconnected to more intuitively embody the value of progress management, unnecessary field investment of each side is reduced, core strength is concentrated on links needing processing, feedback is carried out in an on-line or off-line meeting mode, solutions are discussed together with each participating side, and problems are solved scientifically;

step six: through the advance progress simulation of a BIM progress management platform, when a progress plan is adjusted, a threshold value is set, the change degree of adjustment is detected through system follow-up, different solution proposals are generated inside and outside the threshold value, the proposals are adjusted through several aspects of time, cost and manpower, relevant responsible persons are reported automatically, and the handling is carried out in time, and a relatively intelligent data processing technology is adopted, so that management personnel do not need to walk in various software, the integration of progress management comprises the integration of software use, and the information transmission and data processing modes are more uniform;

the BIM progress management platform comprises an input terminal 1, a lightweight module 2, an information storage module 3, an information processing module 4 and an information display module 5, wherein the output end of the input terminal 1 is connected with the input end of the lightweight module 2, the output end of the lightweight module 2 is connected with the input end of the information storage module 3, the output end of the information storage module 3 is connected with the input end of the information processing module 4, and the output end of the information processing module 4 is connected with the input end of the information display module 5;

the information processing module 4 comprises a 4D model unit 41, a communication unit 42 and a data analysis unit 43;

the 4D model unit 41 is used for generating a schedule 4D model in the step 3;

the communication unit 42 is used for notifying all the responsible persons in the fourth step and automatically reporting the related responsible persons in the sixth step, and a signal receiving end of the communication unit 42 is a mobile phone or a computer of all the responsible persons and the related responsible persons;

the data analysis unit 43 is used for time-dependent functional information deviation analysis in step five.

In summary, the following results are obtained: the introduction of the BIM technology, in addition in the middle of the progress management, can effectively solve the management confusion that appears in the current traditional progress management, important information is lost, exceed the budget, practice such as doing over again, the BIM technology supports whole process information and does not have the loss of transmission and shares, keep in real time, effective information can not be diluted, can not forget yet, the progress management of full life cycle gives each participating party an open inquiry and management platform, reduce each party's communication barrier, foreseeable construction simulation discovers the problem and solves the problem in advance, and the integrated management of resource is more favorable to the more efficient construction input of deciding of construction party, the inspection construction condition.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, other structures can refer to common designs, and the same embodiment and different embodiments of the invention can be combined with each other without conflict;

and finally: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention are intended to be included in the scope of the present invention.

Claims (8)

1. A progress management method based on BIM is characterized in that: the specific management steps are as follows:

the method comprises the following steps: building three-dimensional models of a building, a structure and an installation in a revit modeling software, and integrating the built three-dimensional models into a complete BIM model;

step two: after the models are integrated, the complete BIM model is imported into a BIM progress management platform, the models are displayed in a light weight mode, and data are stored in a tabulated mode to form a database;

step three: a progress manager draws up a progress plan through project database data, all traces are left in the soft armor in the process, and a progress plan 4D model is generated after a work plan is confirmed;

step four: problems found in actual construction need a project manager to arrange personnel specially responsible for problem recording to perform daily information acquisition, information is uniformly updated every day, and a BIM progress management platform automatically informs all parties of the responsible persons to check and verify in time;

step five: the BIM progress management platform comprises the necessary functions of time-related front edge, cross road map comparison and banana curve deviation analysis, corresponding analysis results can be obtained by simple condition confirmation, the analysis results are mainly time, one surface is compared, cost information and actual construction conditions are input into the BIM progress management platform, and a comprehensive analysis report is issued;

step six: through the advance progress simulation of the BIM progress management platform, when the progress plan is adjusted, a threshold value is set, the change degree is adjusted through the follow-up detection of the system, different solution proposals are generated inside and outside the threshold value, the proposals are adjusted through several aspects of time, cost and manpower, relevant responsible persons are automatically reported, and the processing is carried out in time.

2. The BIM-based progress management method according to claim 1, wherein: the initial accuracy of the model constructed in the first step is LOD 200.

3. The BIM-based progress management method according to claim 2, wherein: the precision of the BIM model integrated in the first step needs to be supplemented and optimized to LOD350-LOD 400.

4. The BIM-based progress management method according to claim 1, wherein: and the lightweight model in the second step is used for displaying and using in real time, and the change of the data controls the real-time change of the model.

5. The BIM-based progress management method according to claim 1, wherein: and step four, double persons are adopted for simultaneously recording reversely, namely two workers collect and finally gather the information at the same time according to opposite inspection orders, the same similar information is unconditionally retained, and the information appearing on one side is reviewed and discussed whether the information is retained or not after being reviewed.

6. The BIM-based progress management method according to claim 1, wherein: and fifthly, after a comprehensive analysis report is issued, feedback is carried out in an online or offline meeting mode, and the comprehensive analysis report and all the participating parties discuss a solution together to solve the problem scientifically.

7. The BIM-based progress management method according to claim 1, wherein: BIM progress management platform includes input terminal (1), lightweight module (2), information storage module (3), information processing module (4) and information display module (5), the output and the lightweight module (2) input of input terminal (1) are connected, the output and the information storage module (3) input of lightweight module (2) are connected, the output and the information processing module (4) input of information storage module (3) are connected, information processing module (4) output and information display module (5) input are connected.

8. The BIM-based progress management method according to claim 7, wherein: the information processing module (4) comprises a 4D model unit (41), a communication unit (42) and a data analysis unit (43);

the 4D model unit (41) is used for generating a schedule 4D model in the step 3;

the communication unit (42) is used for informing all the responsible persons in the fourth step and automatically reporting the related responsible persons in the sixth step, and a signal receiving end of the communication unit (42) is a mobile phone or a computer of all the responsible persons and the related responsible persons;

the data analysis unit (43) is used for analyzing the time-dependent functional information deviation in the step five.

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